Circuit Board Fabrication in the Spanish Mainland

Who we are

We are a start-up spanish firm presenting top quality and peerless prices in producing of Circuit Boards.
We serve the prototyping fans in addition to the industry. We are specialists in very short timings consequently can easily send the boards in the same day we obtain the Gerbers, if you wish to.
We are nearly always moving on, and customarily add in new materials and technologies in the producing process.

Charge Online Calculator

http://www.pcbya.com/en/calculator.php

Frequently asked questions

PCB File

What format of Gerber and Drill files do you settle for?

We agree to Gerbers from all of the Cad Software applications, simply just output them in RS-274-X format. The drills file should be Excellon1 or 2 compatible.

Precisely why are the prototypes prices so affordable? Aren’t there a fix cost of tooling?

We now have designed,developed and produced our own machinery therefore we can easily compete with other countries (such as China,Bulgaria,etc..) in which mortgages and costs are very much lower. In PCBYA there is no tooling cost.

Shipping charges

Just how much does it cost shipping to my country?

Make use of the online calculator aforementioned for information on the shipment.
In the event your country is not there, send us a email.

Payment method

What is the payment method?

The payment method is pay pal,so you can pay very easily with VISA,Master card,and so on with your currency.
Every time you purchase a board, we send a message with a paypal web page link in which you can pay in a safeguarded way, afterward paypal will notify us of your payment and we get started the manufacturing of your Circuit Board.

This week on Maker Update: making your own 3D printed computer museum, Fusion 360 learns a new trick, a smoking laser sword, a new drawbot, a reason to buy a dental vacuform, and a giveaway for a full Raspberry Pi computer setup from our show sponsor, WD Labs.
SUBSCRIBE ON YOUTUBE: https://www.youtube.com/c/makerprojectlab?sub_confirmation=1

Raspberry Pi Compute Module 3 (CM3) focuses on electronic gadgets

Sort of announced in July 2016, the new Raspberry Pi Compute Module 3 (CM3) is known to reach the market in the near future. Last October computer equipment maker NEC previously announced a new range of professional P and V Series large format displays that gracefully include the RPi CM3 module. The new module, offered in two versions – CM3 and CM3L (lite) – will complement the CM1 module launched some years ago.

Specifications for the CM1, CM3 and CM3L SODIMM modules may be found in the data sheet found on the RPi websitehttps://www.raspberrypi.org/documentation/hardware/computemodule/RPI-CM-DATASHEET-V1_0.pdf
. Where the CM1 was driven by a BCM2835 CPU (as used on the original RPi and RPi B+ models), the CM3 contains a quad-core 1.2 GHz BCM2837 processor, similar to the RPi 3. It provides 1 Gigabytes of LPDDR2 RAM and 4 Gigabytes eMMC Flash. The ‘L’ version is a CM3 not having eMMC Flash, allowing for the individual to link up his/her own SD/eMMC unit. The pinout of the CM1 and CM3 modules are exactly the same but the CM3 module is one mm higher (31 mm).

Cost

The money necessary for the new modules isn’t known yet, but because a CM1 is sold at roughly ￡20, a comparable price could very well be expected for the CM3.

Specifications

The CM3 is based upon the Raspberry Pi 3 hardware and is created for industrial use to offer a inexpensive approach for people to make custom products based upon the Pi software and hardware platform. The Compute Module product line is smaller sized and has less benefits and ports than a standard Raspberry Pi, rendering it suited to Internet of Things (IoT) products.

“The module works with a standard DDR2 SODIMM form factor, sockets for which are made by several producers, are very easily available in the market, and are reasonably priced,” Raspberry Pi COO and hardware lead James Adams explained in a article.

There are 2 models of the CM3. And listed below are the specifications for both of them:

Standard Variant:

BCM2837 processor at up to 1.2Gigahertz
1Gigabyte RAM
4Gigabyte of on-module eMMC flash

Lite Model:

BCM2837 processor at up to 1.2GHz
1GB RAM
SD card interface on Module pins which means that a customer can connect this up to an eMMC or SD card of their choice

Both variants can be slotted into a newly released Compute Module IO Board V3 (CMIO3) which helps you to conduct the following:

Offers required power to the CM3
Enables you to program the CM3 Standard’s flash memory or to use an SD card on the Lite version.
Access the processor interfaces in a a bit more friendly fashion (pin headers and flexi connectors, just like the Pi)
Provides the needed HDMI and USB connectors allowing you to have an complete system which can boot Raspbian (or perhaps the Operating system of your preference).

“This board delivers both a starting template for those who want to design with the Compute Module, and a quick way to begin with experimenting with the hardware, and building and testing a system, before you go to the expense of making a made to order board,” Adam said.

The older Compute Module model will continue to be provided, for individuals that do not require the CM3’s performance turbocharge. According to the Raspberry Pi official magazine The MagPi:

“With some caveats, the CM3 may be used a drop-in replacement for the CM1 as they are pin compatible; the CM3 is 1mm taller, yet, while the CPU can pull a great deal more current from the VBAT power line and will definitely produce a lot more heat under heavy load.”

Super Make Something Basics is a series of mini tutorials showing you maker tips and tricks that you can use in your own projects. Today, we set up a Raspberry Pi and enable it for WiFi remote access from another computer!

Raspberry Pi Substitutes: Why They’re a Better Buy

Raspberry Pi isn’t the baddest mini computer on the planet, and it is what its competitors are seeking to convey to the rest of the world. Now and then, a new mini computer is launched on the market promising to be the largest one to conquer Raspberry Pi. For that matter, there’s a new Raspberry Pi killer known as NanoPi M1 Plus, which is Ubuntu-Linux ready and priced at $30.

The Raspberry Pi is presented with four variations as time has passed. Examples of these are Raspberry Pi Model B+, Pi 2 Model B, Zero, and the newest which is Pi 3 Model B.

Pi 3 was designed to make sure Raspberry Pi will fulfill anybody with a low priced computer for computer programming. It has replaced CPU with the Cortex A53, Hackaday reported, and runs on 1.2 GHz. Costing $35, the Raspberry Pi is the best selling of all.

The Raspberry Pi, but nevertheless, isn’t the single single board computer(SBC) for homebrewed projects. There are many more available in the market which will cost less, and then some that can do more than Raspberry Pi for a bit more, ZD Net mentioned.

First of all, there is the Omega 2, which includes a modular nature encouraging computer programmers to include Bluetooth or Navigation systems with ease. It has inbuilt Wi-Fi and flash storage; the OS is Linux distribution based upon the OpenWrt program. The Omega 2 will cost you $5 and is also able to run on FreeBSD Operating system, and that is why it is beneficial to school students.

The BBC Micro:bit will cost you $16 and is just the thing for school students for their learning and prototyping projects. A 32-bit ARM Cortex processor chip energizes it from inside and it excels from the rest for the 5×5 LED matrix. This function gives you 25 singularly programmable red-colored Led lights for basic output.

There is also the BeagleBone Black, which will cost you $55 and exactly like the Raspberry Pi, is in addition a community-supported platform both for hobbyists and programmers. It really works rapidly; it can certainly boost Linux in less than Ten secs and can develop in within Five min’s. It is actually fueled by AM335x 1GHz ARM Cortex-A8 plus 512MB DDR3 RAM.

Someone else is the NanoPi M1 Plus, that has been referred to as as the newest Raspberry Pi killer. At $30, it promises to have a tougher layout and design and was in a position to integrate crucial features such as Wi-Fi and Bluetooth. Also, it carries an IR receiver, microphone, 8GB memory space, and power and reset control keys.

Even so, the most useful function of NanoPi M1 Plus is its capacity to run Ubuntu-Mate, Ubuntu-Core, and also Debian, Beta News published. It’s perfect for firm users, coders, enthusiasts, and school students.

Know more on official webpage: http://friendlyarm.com/index.php?route=product/product&product_id=176

There exists a new Raspberry Pi opponent that is quite budget friendly. In reality, a number of people might view it as a Pi substitute. The $30 FriendlyElec NanoPi M1 Plus has an arguably outstanding layout and design, along with valuable in-built features similar to Wi-Fi and Bluetooth.

Raspberry Pi Compute Module 3 (CM3) targets on consumer products

Sort of announced in July 2016, the recent Raspberry Pi Compute Module 3 (CM3) is known to go to the market quickly. Last Oct . PC equipment manufacturer NEC already announced a new spread of professional P and V Series large format displays that gracefully embed the RPi CM3 module. The new module, offered in two flavors – CM3 and CM3L (lite) – will complement the CM1 module launched before.

Specs for the CM1, CM3 and CM3L SODIMM modules are located in the data sheet accessible on the RPi sitehttps://www.raspberrypi.org/documentation/hardware/computemodule/RPI-CM-DATASHEET-V1_0.pdf
. Where the CM1 was driven by a BCM2835 chip (as used on the original RPi and RPi B+ models), the CM3 features a quad core 1.2 GHz BCM2837 processor, like the RPi 3. It offers 1 GB of LPDDR2 RAM and 4 GB eMMC Flash. The ‘L’ version is a CM3 without having eMMC Flash, empowering the owner to install his/her very own SD/eMMC unit. The pinout of the CM1 and CM3 modules are the same but the CM3 module is one mm higher (31 millimeters).

Price

The price of the new modules isn’t known yet, but since a CM1 is sold at about ￡20, a very similar price may be anticipated for the CM3.

Specifications

The CM3 is founded upon the Raspberry Pi 3 hardware and is ideal for industrial use to offer a less expensive opportunity for consumers to make customised products based upon the Pi hardware and software platform. The Compute Module product line is smaller and has less options and ports than a standard Raspberry Pi, that makes it ideal for Internet of Things (IoT) products.

“The module utilizes a standard DDR2 SODIMM form factor, sockets for which are made by several manufacturers, are conveniently accessible, and additionally are bargain-priced,” Raspberry Pi COO and hardware lead James Adams said in a post.

There are 2 variants of the CM3. Listed here are the technical specs for both:

BCM2837 processor at to a maximum of 1.2GHz
1GB RAM
SD card interface on Module pins thus a user can connect this up to an eMMC or SD card of their choice

Both versions can be slotted into a newly released Compute Module IO Board V3 (CMIO3) which helps you to conduct the following:

Provides needed power to the CM3
Lets you program the CM3 Standard’s flash memory or to work with an SD card on the Lite version.
Access the processor interfaces in a slightly more friendly fashion (pin headers and flexi connectors, similar to the Pi)
Supplies the required HDMI and USB connectors so you have an complete system which can boot Raspbian (or maybe the OS of your choosing).

“This board provides both a starting template for those who want to design with the Compute Module, and a quick way to begin with experimenting with the hardware, and building and testing a system, before going to the expense of fabricating a custom board,” Adam said.

The older Compute Module model will continue to be delivered, for individuals that don’t need the CM3’s performance increasing. As reported by the Raspberry Pi official mag The MagPi:

“With a couple of caveats, the CM3 may be used a drop-in replacement for the CM1 as they are pin compatible; the CM3 is 1mm taller, even so, while the CPU can pull far more current from the VBAT power line and will make a lot more heat under heavy load.”

This week, an artificially intelligent word camera, the launch of the Pi Compute Module 3 and why it’s ok not to care, a goofy walking Arduino bot, a slot-together octopus lamp, a $20 color-matching laptop light, shop tips, battery tips, and where in the world is this week’s Maker Faire? SUBSCRIBE ON YOUTUBE: https://www.youtube.com/c/makerprojectlab?sub_confirmation=1

Raspberry Pi Compute Module 3 (CM3) targets on consumer electronics

Sort of announced in July 2016, the latest Raspberry Pi Compute Module 3 (CM3) is assumed to go to the market in the near future. Last Oct . PC equipment manufacturer NEC previously announced a new array of professional P and V Series large format displays that easily embed the RPi CM3 module. The new module, available in two options – CM3 and CM3L (lite) – will complement the CM1 module released some years ago.

Specifications for the CM1, CM3 and CM3L SODIMM modules come in the data sheet available on the RPi web-sitehttps://www.raspberrypi.org/documentation/hardware/computemodule/RPI-CM-DATASHEET-V1_0.pdf
. Where the CM1 was powered by a BCM2835 chip (as employed on the original RPi and RPi B+ models), the CM3 provides a quad core 1.2 GHz BCM2837 processor, like the RPi 3. It has 1 Gigabyte of LPDDR2 RAM and 4 Gigabyte eMMC Flash. The ‘L’ version is a CM3 without eMMC Flash, allowing for the end user to add his/her personal SD/eMMC system. The pinout of the CM1 and CM3 modules are identical but the CM3 module is one mm higher (31 mm).

Price

The price of the new modules is not known yet, but as a CM1 retails at roughly ￡20, a equivalent price could very well be predicted for the CM3.

Technical Specs

The CM3 is founded on the Raspberry Pi 3 hardware and is suitable for industrial use in order to give a cost efficient solution for individuals to make custom products based upon the Pi software and hardware system. The Compute Module product line is smaller sized and has less functions and ports than a standard Raspberry Pi, rendering it perfect for Internet of Things (IoT) products.

“The module uses a standard DDR2 SODIMM form factor, sockets for which are made by several makers, are simply accessible, and are low-cost,” Raspberry Pi COO and hardware lead James Adams mentioned in a post.

There are 2 designs of the CM3. Below are the specifications for both of them:

BCM2837 processor at up to 1.2GHz
1GB RAM
SD card interface on Module pins consequently a user can wire it up to an eMMC or SD card that they decide on

Both models can be slotted into a newly released Compute Module IO Board V3 (CMIO3) which helps you to execute the following:

Delivers needed power to the CM3
Permits you to program the CM3 Standard’s flash memory or to use an SD card on the Lite version.
Connect to the processor interfaces in a slightly more friendly fashion (pin headers and flexi connectors, similar to the Pi)
Provides the required HDMI and USB connectors so you have an complete system that can boot Raspbian (or the Operating system of your choosing).

“This board gives both a starting template for those who want to design with the Compute Module, and a quick way to begin trying out the hardware, and building and testing a system, before going to the fee for fabricating a tailor made board,” Adam said.

The older Compute Module model will still be provided, for individuals that do not require the CM3’s performance upgrading. As reported by the Raspberry Pi official magazine The MagPi:

“With several caveats, the CM3 may be used a drop-in replacement for the CM1 as they are pin compatible; the CM3 is 1mm taller, nonetheless, while the CPU can pull far more current from the VBAT power supply line and will definitely make much more heat under heavy load.”

Mo Volans from FiveNinjas shares Slice at World Maker Faire New York 2014. It’s a set-top media player that’s based on the brand new Raspberry Pi Compute Module. They’re in the process of crowdfunding the project, and have met their funding goal. Since it’s based on the Raspberry Pi hardware and XBMC software, the platform is totally hackable. source

Raspberry Pi Compute Module 3 (CM3) aims to consumer products

Sort of announced in July 2016, the most recent Raspberry Pi Compute Module 3 (CM3) is believed to arrive at the market in the near future. Last October computer equipment maker NEC already announced a new spread of professional P and V Series large format displays that easily embed the RPi CM3 module. The new module, offered in two flavors – CM3 and CM3L (lite) – will complement the CM1 module introduced before.

Specifications for the CM1, CM3 and CM3L SODIMM modules appear in the data sheet offered on the RPi web sitehttps://www.raspberrypi.org/documentation/hardware/computemodule/RPI-CM-DATASHEET-V1_0.pdf
. Where the CM1 was based on a BCM2835 processor chip (as used on the original RPi and RPi B+ models), the CM3 contains a quad-core 1.2 GHz BCM2837 chip, similar to the RPi 3. It offers 1 Gigabytes of LPDDR2 RAM and 4 Gigabytes eMMC Flash. The ‘L’ version is a CM3 without eMMC Flash, making it possible for the user to install his/her own SD/eMMC device. The pinout of the CM1 and CM3 modules are identical but the CM3 module is one mm higher (31 millimeters).

Pricing

The money necessary for the new modules isn’t known yet, but since a CM1 sells at about ￡20, a comparable price could possibly be predicted for the CM3.

Technical Specs

The CM3 is founded on the Raspberry Pi 3 hardware and is intended for industrial use to offer a affordable way for customers to make printed products based on the Pi hardware and software system. The Compute Module line is more compact and has less abilities and ports than a regular Raspberry Pi, allowing it to be suitable for Internet of Things (IoT) products.

“The module works with a standard DDR2 SODIMM form factor, sockets for which are made by several makers, are conveniently available in the market, and also are less expensive,” Raspberry Pi COO and hardware lead James Adams stated in a post.

There are two models of the CM3. The following are the specs for both of them:

Standard Version:

BCM2837 central processor at as high as 1.2GHz
1Gigabyte RAM
4Gigabyte of on-module eMMC flash

Lite Variant:

BCM2837 processor at as high as 1.2GHz
1GB RAM
Sdcard interface on Module pins which means that a person can connect it up to an eMMC or Sdcard that they select

Both models can be slotted into a newly released Compute Module IO Board V3 (CMIO3) which lets you perform the following:

Provides needed power to the CM3
Helps you to program the CM3 Standard’s flash memory or to utilize an Sdcard on the Lite version.
Connect to the processor interfaces in a a bit more friendly fashion (pin headers and flexi connectors, much like the Pi)
Supplies the required HDMI and USB connectors allowing you to have an full system that can boot Raspbian (or maybe the OS of your preference).

“This board features both a starting template for those who want to design with the Compute Module, and a fast way to start out tinkering with the hardware, and building and testing a system, before going to the expense of fabricating a made to order board,” Adam said.

The older Compute Module model will continue to be delivered, for folks who don’t require the CM3’s performance turbocharge. Depending on Raspberry Pi official mag The MagPi:

“With some caveats, the CM3 can be utilized a drop-in substitute for the CM1 because they are pin compatible; the CM3 is 1mm taller, nonetheless, while the CPU can pull much more current from the VBAT power line and will eventually bring in much more heat under heavy load.”

Raspberry Pi Compute Module 3 (CM3) concentrates on gadgets

Sort of announced in July 2016, the recent Raspberry Pi Compute Module 3 (CM3) is considered to hit the market quickly. Last October computer equipment maker NEC already announced a new variety of professional P and V Series large format displays that seamlessly embed the RPi CM3 module. The new module, for sale in two variants – CM3 and CM3L (lite) – will complement the CM1 module launched a few years ago.

Specs for the CM1, CM3 and CM3L SODIMM modules can be obtained from the data sheet found on the RPi sitehttps://www.raspberrypi.org/documentation/hardware/computemodule/RPI-CM-DATASHEET-V1_0.pdf
. Where the CM1 was based on a BCM2835 processor chip (as utilized on the original RPi and RPi B+ models), the CM3 provides a quad core 1.2 GHz BCM2837 processor chip, like the RPi 3. It has 1 GB of LPDDR2 RAM and 4 GB eMMC Flash. The ‘L’ version is a CM3 without having eMMC Flash, permitting the client to hook up his/her individual SD/eMMC product. The pinout of the CM1 and CM3 modules are the same but the CM3 module is one millimeter higher (31 mm).

Pricing

The money necessary for the new modules is not known yet, but as a CM1 sells at about ￡20, a comparable price could possibly be anticipated for the CM3.

Specifications

The CM3 is founded upon the Raspberry Pi 3 hardware and is designed for industrial use in order to offer a cost-effective way for consumers to make customized products based on the Pi software and hardware platform. The Compute Module line is smaller and has less functions and ports than a standard Raspberry Pi, so that it is ideal for Internet of Things (IoT) products.

“The module uses a standard DDR2 SODIMM form factor, sockets for which are made by a few producers, are effortlessly obtainable, and additionally are reasonable,” Raspberry Pi COO and hardware lead James Adams said in a blog post.

There are two designs of the CM3. Right here are the specs for both:

Standard Variant:

BCM2837 chip at as high as 1.2Gigahertz
1Gigabyte RAM
4Gigabyte of on-module eMMC flash

Lite Variant:

BCM2837 processor at as high as 1.2GHz
1GB RAM
Sdcard interface on Module pins consequently an end user can wire it up to an eMMC or Sdcard that they select

Both models can be slotted into a newly released Compute Module IO Board V3 (CMIO3) which helps you to execute the following:

Delivers required power to the CM3
Allows you to program the CM3 Standard’s flash memory or to make use of an Sdcard on the Lite version.
Connect to the processor interfaces in a a little more friendly fashion (pin headers and flexi connectors, similar to the Pi)
Provides the necessary HDMI and USB connectors to ensure that you have an whole system which can boot Raspbian (or maybe the OS of your choosing).

“This board presents both a starting template for those who want to design with the Compute Module, and a quick way to begin with experimenting with the hardware, and building and testing a system, before going to the fee for making a customized board,” Adam said.

The older Compute Module model will continue to be provided, for many who don’t require the CM3’s performance turbocharge. Depending on Raspberry Pi official magazine The MagPi:

“With several caveats, the CM3 may be used a drop-in replacement for the CM1 since they are pin compatible; the CM3 is 1mm taller, even so, while the CPU can pull far more current from the VBAT power source line and will definitely give rise to way more heat under heavy load.”

Raspberry Pi Compute Module 3 (CM3) aims to consumer products

Sort of announced in July 2016, the recent Raspberry Pi Compute Module 3 (CM3) is considered to arrive at the market in the near future. Last October computer system equipment producer NEC already announced a new variety of professional P and V Series large format displays that seamlessly include the RPi CM3 module. The new module, offered in 2 flavors – CM3 and CM3L (lite) – will complement the CM1 module released some years ago.

Specifications for the CM1, CM3 and CM3L SODIMM modules can be obtained from the data sheet found on the RPi websitehttps://www.raspberrypi.org/documentation/hardware/computemodule/RPI-CM-DATASHEET-V1_0.pdf
. Where the CM1 was driven by a BCM2835 processor (as employed on the original RPi and RPi B+ models), the CM3 sports a quad core 1.2 GHz BCM2837 central processing unit, like the RPi 3. It has 1 Gigabytes of LPDDR2 RAM and 4 Gigabytes eMMC Flash. The ‘L’ version is a CM3 not having eMMC Flash, enabling the person to hook up his/her own SD/eMMC system. The pinout of the CM1 and CM3 modules are identical but the CM3 module is one millimeter higher (31 mm).

Cost

The price of the new modules isn’t known yet, but as a CM1 retails at around ￡20, a comparable price could be expected for the CM3.

Specs

The CM3 is based upon the Raspberry Pi 3 hardware and is ideal for industrial use to provide a cost-effective opportunity for folks to make customised products based upon the Pi software and hardware system. The Compute Module line is scaled-down and has less functions and ports than a standard Raspberry Pi, rendering it appropriate for Internet of Things (IoT) products.

“The module makes use of a standard DDR2 SODIMM form factor, sockets for which are made by several makers, are very easily available in the market, and additionally are inexpensive,” Raspberry Pi COO and hardware lead James Adams said in a post.

There are 2 variants of the CM3. Let’s consider the technical specs for both of them:

BCM2837 processor at to a maximum of 1.2GHz
1GB RAM
Sdcard interface on Module pins and so a customer can wire this up to an eMMC or Sdcard of their choice

Both models can be slotted into a newly released Compute Module IO Board V3 (CMIO3) which helps you to complete the following:

Delivers required power to the CM3
Helps you to program the CM3 Standard’s flash memory or to work with an Sdcard on the Lite version.
Connect to the processor interfaces in a a little bit more friendly fashion (pin headers and flexi connectors, just like the Pi)
Offers the required HDMI and USB connectors allowing you to have an entire system that can boot Raspbian (or maybe the Operating system of your preference).

“This board gives both a starting template for those who want to design with the Compute Module, and a faster way to start tinkering with the hardware, and building and testing a system, before going to the expense of making a custom made board,” Adam said.

The older Compute Module model will still be provided, for those who don’t want the CM3’s performance boost. Based on the Raspberry Pi official magazine The MagPi:

“With several caveats, the CM3 may be used a drop-in alternative to the CM1 since they are pin compatible; the CM3 is 1mm taller, having said that, while the CPU can pull much more current from the VBAT power source line and will eventually deliver significantly more heat under heavy load.”

In this video I show you my tool chain to produce prototype PCBs. It starts with Eagle, continues with PCB-Gcode, GCode-Wizzard and Autoleveller. The whole thing is held together with a small java program written by myself.

You find this program on Github: https://github.com/SensorsIot/CNC-Milling

PCB-Gcode for Eagle: http://pcbgcode.org/

PCB-Gcode Wizzard: http://www.pcbgcode.com

Autoleveller: http://www.autoleveller.co.uk/

Rigid-flexible PCB Board Manufacturing Unit Based in China Mainland

PCBWING Tech Co., Ltd (chiefly for prototype)

According to https://www.pcbwing.com/Aboutus.php

PCBWING Tech Co., Ltd is among the list of China’s main enterprise providing PCB solutions, that is a collaboration of 3 of the top ten PCB makers in China. Our edges are fast-turn-time, small-scale volume orders.
We are a new electronics contract manufacturer (ECM) based in Beijing, China. We are already committed to PCB prototype in the last 12 years. We’ve served well-known corporations or associations all over the world, which include Microsoft, HP, Toshiba, Jet Propulsion Laboratory of China, Altium, University of Cambridge, University of Wisconsin, Stanford University, Harvard University, Beijing University, Siemens and also China Mobile. We have affordable rates, well-trained engineers and outstanding fabricating abilities. We recommended people to contact with us and think about us as a reliable provider for PCB manufacturing services.

We guarantee:
High-quality. Cut-throat pricing. Prompt delivery.

PCBWING Tech Co., Ltd can be your professional manufacturer for PCB prototype service.

STG

STG is a main experienced Circuit Board and PCBA manufacturer in China, which supplies OEM/ODM service for global customers . With many years of expertise, STG is not simply a maker, but even a competent designer for new concepts, new innovations depending on customers. Our product selection contains various fields, for instance , gadgets, telecoms, industrial items , automobile assemblies, medical equipment and the like.

Topscom is a popular Electronics Manufacturing Services (or EMS) supplier preoccupied with providing inventive design and manufacturing services to car, manufacturing, healthcare, prospects, telecom, and hi-tech corporations. With budgetary year 2013 business earnings of 360 Million Dollars, Topscom helps customers design and layout, fabricate, shipping, and electronic products which provides customers with overall design, engineering, and manufacturing resources which are vertically integrated with parts to enhance their operations by lessening their prices and cutting down the period to markets.

Our several sections are aimed to offer you an extensive range of manufacture, engineering and machining solutions:
Our SMT capabilities deal with 0201, leadless and flip-chip technologies.
Our plastic injection molding work group is aligned with cutting-edge gear in white room and ice water air conditioning system. A exceptional production line is furthermore built to detract and slice the material grain.
Our metal stamping team comes with CNC process center, silk equipment along with drilling equipment provided by Japan and Taiwan.
In our mold tooling department, we make use of Pro-Engineer professional software package for effective design help. Using EROWA grips, we can easily keep control on the precision under 3 ums.
To retain quality control strategy efficient, we frequently check our test flow graphs. Furthermore we have purchasing workplaces in Tokyo, Japan, Singapore and also Hong Kong run by our central materials storage facility in Shenzhen.

Our manufacturing facility is located within Shenzhen, China with a total place of 200,Thousand square meters and more than 4 thousand workers. We firmly count on the worth of our staff members and desire to uphold a professional mind-set and company way of life that supports creativity and delivers job pleasure.

The managing draws attentions to continuous training, open communications, teamwork and engagement in decision-making process.

With in depth experience in working with high-tech companies and diversified client base in wide product range, we are really confident to offer excellent solutions, high flexibleness, economical manufacture solutions and punctual delivery for our customers.

EasyEDA Free Online EDA Program

EasyEDA is Captivated With Innovation

We are makers, hackers and engineers. When we wanted to design and develop a few electronics a couple of years ago, we invested a few weeks searching for the proper programs. We demanded schematic capture, spice simulation and PCB layout but yet we wanted it not to be only for Ms windows and we didn’t enjoy the idea of being required to pay out a bunch of money to order a huge software suite and next invest weeks time figuring out how to work with it.

Our purpose is to support developers move on from idea to fabricated prototype faster by giving you thorough details and collaboration specialized tools for electronic design. Whether you’re a dabbler keen to test your initial project or a practiced technician searching for a output skyrocket, our goal in mind is to get rid of the boredom in taking a innovation to life. We would like to hear what you’re working away on or any ideas on how we can assist you, so feel free to email us.

Basically, EasyEDA will provide you with an easier EDA experience, enabling you to love more of the trip from a good idea to a product.

Business Line And Pricing

There won’t be any totally free business models; EasyEDA must maintain itself and thus it needs to support the staff members too.

Aiming to offer a disruptive innovation, we provide an amazing absolutely free web based EDA software package, but yet we hope to make cash from other types of services, which include presenting PCB orders, PCB assembly, ads and special project reviews by our expert electronic specialists.

Please work with EasyEDA, we insure EasyEDA’s core features are completely free to everybody.